Honeycomb core assembly including a sacrificial core portion

ABSTRACT

A sandwich assembly, e.g. an aluminum honeycomb sandwich assembly such as an inboard slat trailing edge for use in an aircraft wherein the spar cap spacing accuracy is retained through break-away tooling, e.g. a strip of low density core machined to the leading edge contour of the honeycomb core during core manufacture.

This is a division of application Ser. No. 164,437, filed June 30, 1980.

This invention relates to a method of making sandwich panel structuresand more particularly to a method of machining honeycomb core prior tosandwich panel assembly.

Heretofore, in accordance with present tooling concepts for eitherconventional or sparless sandwich assemblies, machining of a mandrel orholder which exactly fits an extruded or machined edge member isrequired. Such tooling concepts make long tapered or curved sectionsespecially difficult. Lack of capability in such efforts has slowed, ifnot stifled, efforts to utilize preferred aerodynamic shapes on lift andcontrol surfaces. Proper pressure transmission from the upper to thelower sandwich surface is usually lacking with the conventional mandrel.

In the patent literature, U.S. Pat. No. 3,064,345 issued Nov. 20, 1962,U.S. Pat. No. 3,060,561 issued Oct. 30, 1962, and U.S. Pat. No.3,413,708 issued Dec. 3, 1968 relate to some temporary holding orstabilizing means utilized during the fabrication of honeycomb-typeworkpieces. Aforementioned U.S. Pat. No. 3,060,561 teaches the use of asolid section or spacer positioned along the edge of a sandwichstructure, not of the honeycomb type, prior to the forming of a curvedsection, the edge member being removed after processing.

In contrast, it is an object of the present invention to providesacrificial honeycomb core structures prior to a machining step inmanufacturing sandwich or wedge structures.

It is a further object of this invention to provide machinable,removable honeycomb core structure for insuring correct primary coreheight in a subsequent method step for bonding of nesting face sheets tothe primary core.

It is yet a further object of this invention to provide temporary edgebonding of a honeycomb core section to a higher density primary coresection prior to a machining step in the manufacture of flat honeycombcore sandwich structure or wedge structure.

It is still another object of the present invention to provide means fortemporarily attaching a honeycomb core portion to a higher densityhoneycomb core portion prior to the machining step of a process formanufacturing and assembling a sandwich structure which includes thehigher density honeycomb core portion and not the temporarily attachedhoneycomb core portion in the finished assembly.

The invention will be best understood by reference to the accompanyingdrawings illustrative of an exemplary embodiment of the method, wherein:

FIG. 1 is a view in perspective of a core blank prior to machiningshowing make up thereof including sacrificial core portion;

FIG. 2 is a side view of the core blank of FIG. 1 showing low density,high density, and sacrificial core portion of the core blank;

FIG. 3 is illustrative of the machining step wherein the sacrificialcore is machined to the same dimension as the high density portion ofthe core blank;

FIG. 4 is a side view of the machining step being performed in FIG. 3;

FIG. 5 is a perspective view showing parting film location with respectto sacrificial core during assembly of components including spar cap andskin on the core blank;

FIG. 6 is a section of the assembly of FIG. 5 showing components of theassembly in more detail;

FIG. 7 is a perspective view of the assembly of FIGS. 5 and 6 showingremoval of sacrificial core after cure and debagging; and

FIG. 8 is a side sectional view of the assembly of FIG. 7 shownsubsequent to assembly of bull nose to to the trailing edge portion ofthe wedge structure assembly.

Turning now to FIG. 1, it can be seen that honeycomb core blank 10 isshown to include a low density portion 12, a high density portion 14,and a further low density sacrificial core portion 16 attached bytemporary fastening means 18 comprising e.g. double-backed tape, contactadhesive or other means enabling low density sacrificial core portion 16to be retained during the machining step of FIG. 3 while separated inthe step shown in FIG. 7. In a side view of honeycomb core blank 10,high density core portion 14 can be seen intermediate low densityportions 12 and 16, low density portion 16 forming the sacrificial coreportion which remains firmly attached to high density core portion 14via temporary fastening means 18 until final break away thereof in thestep of FIG. 7.

Honeycomb blank assembly 10 shown in FIGS. 1 and 2 is shown in FIG. 3and in side view in FIG. 4 being machined to desired height H, width Wand length L. In this manner, it should be further noted thatsacrificial honeycomb core portion 16 is machined to exactly the samedimension in height H and width W as higher density honeycomb coreportion 14 of honeycomb core blank 10 thereby assuring no mismatch in asubsequent bonding operation. The upper core surface 15 which isrecessed at the forward edge by machining as shown in FIGS. 3 and 4 isshimmed (not shown) to prevent deflection when core blank 10 is invertedto machine opposite surface 17. Sacrificial core portion 16 is securedadequately by temporary fastening means 18 and thus not permitted tomove relative to higher density honeycomb core portion 14 during thismachining operation by e.g. movement of routing means 21 to provide thedesired predetermined dimensioning of honeycomb core blank 10.

Subsequent to the achievement of desired dimensions, a plastic film orother separator, e.g. Teflon film, a synthetic resin polymer is placedover outer surfaces 30 of sacrificial honeycomb core portion 16 whichinterface with the inner surfaces of spar cap members 32 to preventlater bonding between surfaces 30 and spar cap member 32. An adhesive isplaced over the remaining outer surface of honeycomb core 10 prior toassembly of the components to core 10, those components including sparcaps (splice plates) 32 and outer upper and lower aluminum skin portions36 and 38. Once assembly of components to honeycomb core 10 has beencompleted with the aforementioned distribution of adhesive and separatordistributed as hereinbefore described, then bagging by surroundingcontaining means 34 is accomplished as indicated in conventional mannerwith subsequent curing accomplished in an autoclave under heat andpressure also in conventional manner. The assembly is then debaggedafter curing and as shown in FIG. 7, sacrificial honeycomb core portion16 is then removed by pulling from temporarily attached condition withhigher density honeycomb core portion 14.

The aforementioned method of manufacture will yield dimensions betweenpoints 100 and points 102 (trailing and leading edges respectively ofspar caps 32) which are the same to within about 0.010 inches withsubstantially parallel core machining and may be contrasted withtolerances achieved in accordance with state of the art techniquesutilizing a machined mandrel, a technique hereinabove referenced.

In FIG. 8, the advantages of the aforementioned and tolerances achievedcan be appreciated when bull nose 108 is required then to be assembledto spar caps 32 of finished honeycomb core assembly 10.

I claim:
 1. A honeycomb core assembly useful in a process forsimultaneously machining a plurality of surface portions of saidhoneycomb core assembly, said honeycomb core assembly comprising:ahoneycomb core blank having a low density portion and a higher densityportion; a sacrificial honeycomb core portion having a density less thansaid higher density portion of said honeycomb core blank; temporaryfastening means disposed between facing surface portions of said higherdensity portion of said honeycomb core blank and said sacrificialhoneycomb core portion; and said plurality of surface portionscomprising a surface portion of said higher density portion and asurface portion of said sacrificial honeycomb core portion.
 2. Theinvention according to claim 1 wherein said sacrificial honeycomb coreportion includes a layer of material covering a surface portion thereofto prevent subsequent bonding thereof to another surface.